It is difficult for students to learn the concepts of chemical laboratory safety education from actual experiences because the traditional teaching model prohibits students from performing dangerous operations. Therefore, this study develops a novel mixed reality-based chemistry experiment learning system (MRCELS) to allow learners to conduct…

General safety and chemical training of undergraduate students is typically held at the first-year level. In this technology report, we propose a flexible strategy to improve students' general knowledge of safety for a second-year inorganic chemistry laboratory. The strategy is composed of an online interactive revision approach through the…

Laboratory safety is a vital part of a chemical education and can be incorporated into courses throughout the chemistry curriculum. Discussions of laboratory safety can serve as an introduction to the important field of green chemistry. Exposure to this field can better prepare students for safer and more sustainable laboratory practices in…

A systems thinking approach to incorporating green chemistry and safety into laboratory culture is vital, as chemists will be at the molecular level of the innovative solutions to our global challenges. Training chemists to have the skills and culture to accomplish this feat in the safest way possible is pivotal to safe working conditions within…

Experimental and investigative work has been an integral element in the teaching of science in schools for many years. Although students have always been taught to work safely, there is now a more general requirement that they will be taught about health and safety and how it should be implemented. That is, they must understand something of the…

Discusses teaching electrical safety guidelines in the process of teaching the concepts related to electricity. Discusses household current; electrical insulation; and examples of electrical safety in the home related to appliances, the bathroom, the yard and the neighborhood. (10 references) (MDH)

In this article, the author relates how a hands-on chemistry investigation provided her the inspiration to develop an effective safety lesson for her third grade chemistry class. She began the lesson by demonstrating the use of pH indicator paper to show that ordinary household (white) vinegar was an acid. With the students, she wondered aloud…

Discusses the hazards of nitric acid and other nitrates, especially ammonium nitrate in the high school laboratory. Provides many historical accounts on the dangers of nitrates. (MVL)

Discusses the presentations of chemical demonstrations, hands-on experiments, and magic shows. Presents 12 guidelines to follow when presenting chemical demonstrations. Points out the obligations of the presenters for the safety concerns of the general public. Notes information available from the American Chemical Society. (MVL)

An understanding of the important concepts of electrical safety can be developed without the concept of potential. Stresses the idea of current flow and the hazards involved. Discusses ground-fault circuit breakers. Includes diagrams on safe and faulty circuits which could lead to electrocution. (Author/MVL)

Describes a one-year high school course in applied chemistry and introductory art. Gives a course overview by art and chemistry topic. Discusses color, painting surfaces, clays and glazes, texture and line, jewelry making, photography, art history, and chemical hazards in art. (CW)

Lists five module objectives and discusses the overall need for the modules. Indicates each module is preceded by a statement of the problem and objectives are aimed specifically at the anticipation and reduction of potential hazards. Offers examples of modules on fume hoods and on disposal of waste. (MVL)

Reported are the results of a 1987 survey of U.S. chemical engineering departments on health and safety. Some details of what is being done at the University of Alabama are provided. A syllabus and reading resources for a survey course on safety, health, environmental, and ethical issues are included. (MVL)

Provided is an empirical method to train students to avoid physical disaster in their work experience. Discussed is a computer program, CHETAH, which can be used in advance of synthesis to classify the possible explosive nature of the products. Plosophoric and auxoplosive weights of many organic groups are listed. (MVL)

This program has 10 units, each to be taught in 40-50 minute periods. Each unit includes a statement of purpose, concepts to be taught, a list of necessary materials, preparation, and graphics. Guidelines are provided for 10-15 minutes of introduction with classroom discussion, 15-20 minutes of activities and 5-10 minutes of wrap-up discussion.…